It is an object to provide a novel wet wiper in which a sterilization effect and a wiping/cleaning effect are maintained even when the wet wiper is stored for a long period of time. A wet wiper is provided which includes: a fabric; and a chlorine-based treatment agent included in the fabric, wherein the chlorine-based treatment agent includes at least one of chlorous acid (HClO.sub.2), chlorite ion (ClO.sub.2.sup.−), and chlorine dioxide (ClO.sub.2) as an effective chlorine component.

A portable finger disinfection apparatus is described which can be freely carried by each user so that fingers can easily be disinfected anywhere. The portable finger disinfection apparatus is provided with a main body having five holes into which can be inserted the tip portions of the forefinger, middle finger, annular finger, pinky finger and thumb of the user respectively, and a disinfection mechanism installed in the main body and capable of disinfecting the fingers inserted into the holes. For example, the disinfection mechanism is an ultraviolet ray generation device which can irradiate the finger inserted into the hole with ultraviolet rays. Alternatively, the disinfection mechanism is a disinfectant supply device which can supply the holes with a disinfectant.

An apparatus and method for removing dried nasal mucus, blood, and other debris from a nostril is disclosed. The apparatus generally includes an elongated shaft with bristles attached to one end of it. The bristles are designed to remove the debris from the nostril by inserting and twisting them around within the nostril.

An apparatus and method for removing dried nasal mucus, blood, and other debris from a nostril is disclosed. The apparatus generally includes an elongated shaft with bristles attached to one end of it. The bristles are designed to remove the debris from the nostril by inserting and twisting them around within the nostril.

A wet tissue usable as a disposable bag and a manufacturing method therefor are provided. The method includes steps of winding, first bonding, cutting, second bonding, packaging, immersing and sealing. According to the wet tissue usable as the disposable bag and the manufacturing method therefor, the wet tissue is taken out sheet by sheet from a sealed pack and used to wipe off contaminants such as dust or foreign matter, and then contains contaminants or garbage in the wet tissue.

A wet tissue usable as a disposable bag and a manufacturing method therefor are provided. The method includes steps of winding, first bonding, cutting, second bonding, packaging, immersing and sealing. According to the wet tissue usable as the disposable bag and the manufacturing method therefor, the wet tissue is taken out sheet by sheet from a sealed pack and used to wipe off contaminants such as dust or foreign matter, and then contains contaminants or garbage in the wet tissue.

A fluid delivery apparatus lighting module includes a first portion having a polymeric substrate having a chromium or chromium-based reflective coating coated on at least an outer surface of the polymeric substrate, the polymeric substrate and chromium or chromium-based reflective coating being at least partially permeable to light; at least one light source disposed within the fluid delivery apparatus lighting module, wherein the at least one light source is configured to receive power from at least one power source and emit light through at least the polymeric substrate and chromium or chromium-based reflective coating of the first portion, and wherein the at least one light source, when emitting no light in an unlit condition, is concealed within the fluid delivery apparatus lighting module behind at least the polymeric substrate and chromium or chromium-based reflective coating of the first portion; at least one sensor selected from the group consisting of a wired fluid temperature sensor, a wireless fluid temperature sensor, a wired fluid flow sensor, a wireless fluid flow sensor, a mechanical fluid flow sensor, a mechanical sensor, a wired motion sensor, a wireless motion sensor, and combinations thereof.

A fluid delivery apparatus lighting module includes a first portion having a polymeric substrate having a chromium or chromium-based reflective coating coated on at least an outer surface of the polymeric substrate, the polymeric substrate and chromium or chromium-based reflective coating being at least partially permeable to light; at least one light source disposed within the fluid delivery apparatus lighting module, wherein the at least one light source is configured to receive power from at least one power source and emit light through at least the polymeric substrate and chromium or chromium-based reflective coating of the first portion, and wherein the at least one light source, when emitting no light in an unlit condition, is concealed within the fluid delivery apparatus lighting module behind at least the polymeric substrate and chromium or chromium-based reflective coating of the first portion; at least one sensor selected from the group consisting of a wired fluid temperature sensor, a wireless fluid temperature sensor, a wired fluid flow sensor, a wireless fluid flow sensor, a mechanical fluid flow sensor, a mechanical sensor, a wired motion sensor, a wireless motion sensor, and combinations thereof.

Disclosed is a sterilizable facial cleaning instrument, which comprises a main apparatus, and a driving motor, a first control board and a rechargeable battery that are provided in the main apparatus, and further comprises an apparatus seat provided with a sterilization cavity, wherein an ultraviolet germicidal lamp is provided in the sterilization cavity; the main apparatus is detachably provided at the apparatus seat and at least a part of a brush head is positioned in the sterilization cavity, so that bristles positioned in the sterilization cavity can be sterilized by ultraviolet irradiation. The sterilizable facial cleaning instrument provided by the present invention can sterilize and disinfect the brush head completely when the main apparatus is combined with the separable designed apparatus seat, thereby ensuring the health and safety of users.

Absorbent nonwoven wipes having improved strength and hand feel comprising a non-homogeneous mixture of small diameter polymeric meltblown fibers and absorbent staple fibers with meltblown fiber rich outer surfaces and staple fiber rich inner regions and wherein a minor amount of staple fibers also protrude through the meltblown fiber rich regions. Wet wipes and dispensers for housing the same are also provided.